CN105928241B - A kind of heat-exchange system multistage series-parallel connection replacement module - Google Patents

Abstract

The present invention relates to technical field of heat exchange more particularly to a kind of heat-exchange system multistage series-parallel connection replacement modules.The series-parallel connection heat exchange system constituted including isolated part and at least three heats being arranged in isolated part displacement subsystem；The isolated part includes isolation entrance, isolation low in calories outlet and high heat isolation outlet；The heat exchange system connects the isolation entrance, the isolation outlet low in calories and high heat isolation outlet.Multiple heats displacement subsystem in series-parallel connection heat exchange system can exchange the working medium in hot systems and carry out multistage heat displacement simultaneously, the amount of working medium in system be substantially increased, to provide the refrigerating/heating efficiency of system.The quantity of heat exchange system in parallel is more, and the refrigerating/heating efficiency of heat-exchange system is stronger.

Description

A kind of heat-exchange system multistage series-parallel connection replacement module

Technical field

The present invention relates to technical field of heat exchange more particularly to a kind of heat-exchange system multistage series-parallel connection replacement modules.

Background technology

Such as Fig. 1, traditional air conditioner and heat pump heating/refrigeration system include compressor, condenser, throttling element and evaporator, Low-temp low-pressure working medium in heating/cooling system flows through evaporator and absorbs heat gasification, is compressed to high temperature and pressure within the compressor Liquid, flow through condenser release heat be cooled to highly pressurised liquid, be finally again introduced into evaporator after throttling element is depressured.Working medium Constantly heat absorption, heat release, realizes system heating/refrigeration in cyclic process in system.Above-mentioned heating/refrigeration system is in outdoor Under the operating mode of low temperature, especially when required condensation temperature is relatively high, heating capacity decaying is extremely serious, or even can not normally start Operation.

Condenser is installed in the environment for needing to heat, working medium is in evaporator by heating/refrigeration system when for heating The middle heat absorbed in evaporator local environment, and be delivered in condenser through working medium runner and discharge heat, to improve condenser The temperature of local environment, reaches heating effect.Evaporator is installed on when for freezing and needs to freeze by heating/refrigeration system Environment in, working medium absorbs the heat in evaporator local environment to reduce the temperature of evaporator local environment in evaporator, And be delivered in condenser through working medium runner and the heat being absorbed into is discharged into the environment residing for condenser, reach refrigeration effect Fruit.

As shown in Fig. 2, the application scenarios of traditional air conditioner and heat pump refrigerating/heating system are divided for two regions：Work Matter discharges the condensing zone of heat and working medium absorbs the evaporating area of heat, in practical application place between condensing zone and evaporating area not It is isolation, their mutual temperature are gradual changes, can be by condensing zone and steaming there is no an apparent temperature limit Hair zoning separates.Condensed device come out high temperature and pressure working medium before non-total condensation can in the form of gas-liquid two-phase state into Enter throttling element, while condensing zone heat dissipation capacity is reduced, the throttle efficiency of strong influence throttling element, due to entering evaporating area Can evaporated liquid working medium amount reduction and matter decline, and then influence the heat absorption efficiency of evaporating area evaporator so that entire heating/ Heating/refrigerating capacity of refrigeration system is had a greatly reduced quality.

If application publication number is CN 101165438, the application for a patent for invention that data of publication of application is on 04 23rd, 2008 is public A kind of super low temperature heat pump air conditioner system is opened.The system includes compressor, main throttle part, indoor external heat exchanger, gas-liquid separation Device, four-way valve, solenoid valve are connected by pipeline between each parts；The system also includes an at least flasher components, institutes The outlet for stating flasher components is connected by pipeline with the air entry of the compressor.Using enhanced jet screw compressor And steam injection system.In worst cold case heating operation, using flash vessel ejector refrigeration agent, keep the sucking of compression function more Refrigerant realizes quasi- Two-stage Compression, improves heating capacity and Energy Efficiency Ratio, while keeping lower compression ratio and delivery temperature again, empty Adjust stable and reliable operation.But due to increasing enhanced jet screw compressor and vapor injection system in the air-conditioning system, Cost of manufacture greatly improves, and the energy consumption that entire air-conditioning system needs when running also greatly increases.And in extreme environment, being The usage comfort of user is improved, we more want to environment temperature are adjusted to needs in the time short as possible Target temperature.Amount by increasing the refrigerating/heating working medium recycled in heating/refrigeration system can improve a refrigerating/heating The amount of heat carrier in cyclic process, to improve the refrigerating/heating efficiency of system.But the heat pump air conditioning system is in work Quality easily leads to compressor and vapor injection system overload operation when increasing.Most importantly in preceding solution In, during working medium flows to evaporating area by condensing zone, the loss of working medium Quantity of heat still has, entire heating/refrigeration system The energy of system it is total some can waste in this process so that the efficiency of heating/refrigeration system is unable to reach optimal.

Invention content

The present invention provides a kind of replacement module for heat-exchange system to solve above-mentioned technical problem.The replacement module is changing Isolation displacement zone is formed between the condensing zone and evaporating area of hot systems.

Technical scheme is as follows：

A kind of heat-exchange system multistage series-parallel connection replacement module, it is characterised in that：Including isolated part and setting it is described every The series-parallel connection heat exchange system constituted from at least three heats displacement subsystem in component；The isolated part includes being partitioned into Mouth, isolation low in calories outlet and high heat isolation outlet；The heat exchange system connects the isolation entrance, described low Heat isolation outlet and high heat isolation outlet.The inside of the heat insulating member forms insulated space, reduces insulated space Heat exchange between internal and external environment.The heat exchange system will be mixed by the isolation entrance into gas-liquid therein It closes state working medium and is divided into two parts, turn the heat of a portion liquid state working medium in the insulated space of shape inside the heat insulating member It moves in another part gas-liquid mixed state working medium, providing the part working medium of heat becomes the lower liquid refrigerant of temperature through low-heat Amount isolation outlet, and the throttling element through heating/refrigeration system is sent to the entrance of evaporator.So that into the Temperature of Working of evaporator It is lower, adjust evaporating pressure so that the heat absorption capacity higher of evaporator.Concatenated heat is set in the series-parallel connection heat exchange system The series for changing system is more, and the Temperature of Working through isolation outlet low in calories outflow is got over the Temperature of Working difference through entrance inflow is isolated Greatly, the refrigerating/heating ability of heat-exchange system can be stronger；The series of heat exchange system in parallel is more in heat-exchange system, entirely The working medium quantity that heat-exchange system can be run is more, and the refrigeration or heating efficiency of heat-exchange system are higher.It can be according to application environment Demand select the quantity and series-parallel system of the heat exchange system.Circumstance of temperature difference is bigger, and the more heat of use is set Change Cascade System；When circumstance of temperature difference is smaller, it can connect only with small number of heat exchange system.The speed of refrigerating/heating Degree is faster, then requires heat converting system in parallel in system more.

Preferably, next stage heat displacement subsystem replaces subsystem in parallel or in series with upper level heat；At least There is level-one heat displacement subsystem in parallel with upper level heat displacement subsystem, at least level-one heat displacement subsystem and upper one Grade heat displacement subsystem series connection；The heat displacement subsystem includes heating unit, heat absorbing units and displacement unit；It is described to set The outlet for changing unit connects the entrance of the heating unit；The entrance of the heat absorbing units of heat exchange system described in the first order connects The isolation entrance, the outlet connection of the heat absorbing units of heat displacement subsystem described in afterbody is described low in calories to be isolated Mouthful, the outlet of the heating unit of the heat displacement subsystems at different levels connects high heat isolation outlet, the heats at different levels Replace the entrance connection isolation outlet low in calories of the displacement unit of subsystem；Upper level heat replaces the heat absorption list of subsystem The outlet of member is connected to the entrance of the heat absorbing units of the next stage heat displacement subsystem of series connection with it, alternatively, upper level heat The outlet of the heat absorbing units of displacement subsystem is connected to going out for the heat absorbing units of next stage heat displacement subsystem connected in parallel Mouthful；The entrance of the heat absorbing units of next stage heat displacement subsystem is connected to the upper level heat displacement subsystem of series connection with it The outlet of heat absorbing units, alternatively, the entrance of the heat absorbing units of next stage heat displacement subsystem is connected to connected in parallel upper one The entrance of the heat absorbing units of grade heat displacement subsystem.Enter the working medium that the heat replaces subsystem through the isolation entrance, A part of heat is absorbed in the heat absorbing units, becomes temperature and is less than the low-heat for flowing into Temperature of Working through the isolation entrance Measure working medium.This part throttling element of the working medium part through heat-exchange system low in calories enters evaporator absorption heat and is evaporated, due to Its temperature is lower, improves the temperature difference between evaporator inlet and outlet, the working performance of evaporator is improved, to improve The ability to work of whole system.Remaining a part of working medium sends the heating unit of heat displacement subsystem back to, absorbs the suction The temperature of working medium in hot cell.Multistage series-parallel connection isolation replacement module is flowing to evaporator process using the working medium of outflow condenser In the heat that distributes heat displacement is carried out again to working medium, can so that flowing out the throttling element through heat-exchange system flows to evaporator The temperature of working medium is lower.And in the process, since what is utilized is working medium itself discharges in system heat（The partial heat exists It is the low-quality thermal energy that can not be recycled in traditional Kano formula cycle applications system）, therefore additional power consumption is not needed, it is whole next It says and promotes the entire efficiency of heat-exchange system.

Preferably, throttling element is arranged in the isolation entrance.The throttling element, which is equivalent to, to be evaporated in original heat-exchange system The throttling element of device front end moves forward, and can effectively distribute available heat in condensing zone, improve effective quantity of heat production of system, avoid Heat waste.

Preferably, the heat absorbing units include the first heat exchange plate, first heat exchange plate enters including the first working medium Mouth, the first sender property outlet, heat absorption working medium runner and collector tube, the heat absorption working medium runner connect with first working medium entrances Logical, the collector tube is connected to the heat absorption working medium runner；The heating unit includes the second heat exchange plate, second heat exchange Plate include the second working medium entrances, the second sender property outlet, heat supply working medium runner and gas collecting tube, the heat supply working medium runner with The second working medium entrances connection, the gas collecting tube are connected to the heat supply working medium runner；The flow-rate adjustment module connects institute State the first sender property outlet and second working medium entrances.By the flow-rate adjustment module heating unit is flowed to by heat absorbing units The flow of working medium realizes the adjusting to working medium density in heat absorbing units and heating unit.It is adjusted by the flow-rate adjustment module Working medium density in first heat exchange plate is more than the working medium density in the heating unit so that the heat absorption working medium runner The total enthalpy of interior working medium is more than the total enthalpy of working medium in the heat supply working medium runner.To realize first heat exchanger plates and institute Heat exchange of second heat exchanger plates in the insulated space that the isolated part is formed is stated, the working medium heat to absorb heat in working medium runner It is transferred in the working medium in heat supply working medium runner.

Preferably, the collector tube is connected to the heat absorption working medium runner by the first return flow line, described first time The position of circulation road and the tie point of the collector tube is less than in the company of first return flow line and the heat absorption working medium runner The position of contact.

Preferably, gas phase return duct, the gas phase return duct and the heat absorption working medium runner is arranged in the heat absorbing units Between be connected to by the second return flow line, second return flow line is less than with the position of tie point for absorbing heat working medium runner The position of second return flow line and the tie point of the gas phase return duct.

Preferably, the gas collecting tube is connected to the heat supply working medium runner by third return flow line, the third is returned Circulation road is higher than the connection of the third return flow line and the heat supply working medium runner with the position of the tie point of the gas collecting tube The position of point.

Preferably, liquid-phase reflux pipe, the liquid-phase reflux pipe and the heat supply working medium runner is arranged in the heating unit It is connected to by the 4th return flow line, the position of the tie point of the 4th return flow line and the liquid-phase reflux pipe is less than described the The position of four return flow lines and the tie point of the heat supply working medium runner.

Preferably, the heat absorption working medium runner and the heat supply working medium runner fit closely, and the heat absorption working medium Working medium flow direction in runner is opposite with the working medium flow direction in the heat supply working medium runner.

Preferably, the throttling element is reducing pipe, the flow-rate adjustment part is capillary.

Such as Fig. 3, technical scheme of the present invention changes traditional two big region of Kano formula cycle applications system, four big components Tectonic framework.The working medium of condensed device outflow is passed through the isolation displacement zone formed based on the plural parallel stage replacement module and entered back into The evaporator.Isolation displacement zone keeps apart condensing zone and evaporating area, recycles entered by condenser in working medium as far as possible The energy that heat-exchange system loses during the evaporator, and the energy of recycling is re-used for heating/system of heat-exchange system Cold work so that entire energy loss of the heat-exchange system for outside greatly reduces, and improves the efficiency of heat-exchange system, and same When significantly increase the heat absorption capacity of system, improve the efficiency of system.It is multiple in parallel in series-parallel connection heat exchange system Heat displacement subsystem can exchange the working medium in hot systems and carry out heat displacement simultaneously, substantially increase working medium in system Amount, to provide the refrigerating/heating efficiency of system.The quantity of heat exchange system in parallel is more, and the refrigeration of heat-exchange system/ Heating efficiency is stronger.The series of concatenated heat exchange system is more, Temperature of Working and warp through isolation outlet low in calories outflow The Temperature of Working difference that entrance inflow is isolated is bigger, and the refrigerating/heating ability of heat-exchange system can be stronger.

Description of the drawings

Fig. 1 is the system diagram of existing heating/refrigeration system.

Fig. 2 is existing heating/refrigeration system scene graph.

Fig. 3 multistage series-parallel connection replacement module structural schematic diagrams.

Fig. 4 multistage series-parallel connection replacement modules deployed configuration schematic diagram one.

Fig. 5 multistage series-parallel connection replacement modules deployed configuration schematic diagram two.

Fig. 6 is the heat-exchange system scene graph of multistage series-parallel connection replacement module using the present invention.

Isolation displacement zone system diagrams of the Fig. 7 based on multistage series-parallel connection replacement module.

The heat-exchange system one of Fig. 8 multistage series-parallel connection replacement modules using the present invention.

The heat-exchange system two of Fig. 9 multistage series-parallel connection replacement modules using the present invention.

The heat-exchange system three of Figure 10 multistage series-parallel connection replacement modules using the present invention.

The heat-exchange system four of Figure 11 multistage series-parallel connection replacement modules using the present invention.

Specific implementation mode

Embodiments of the present invention are described in detail below in conjunction with attached drawing.

Embodiment one

Such as a kind of heat-exchange system plural parallel stage replacement modules of Fig. 3, including isolated part 1 made of heat-barrier material, and First heat displacement subsystem, the second heat displacement subsystem and third heat are set in isolated part and replace subsystem. First heat replaces subsystem as first order heat exchange system, the second heat exchange system and first order heat exchange system Parallel connection constitutes second level heat exchange system, and third heat exchange system is in series entire mixed with second level heat exchange system Join heat exchange system.Heat displacement subsystem includes heat absorbing units 2, heating unit 3 and displacement unit.Isolated part 1 prevents The heat exchange of its internal working medium and external environment.Isolated part 1 is provided with isolation entrance 11, isolation low in calories exports 12 and High heat isolation outlet 13.The entrance connection isolation entrance of heat absorbing units, the outlet of heat absorbing units connect isolation outlet low in calories, The outlet of the entrance linker substitution unit of heating unit, the outlet connection high heat isolation outlet of heating unit, replaces unit Entrance connects isolation outlet low in calories.Entrance is isolated and is equipped with first throttle part 5.First heat replaces subsystem and the second heat is set The entrance for changing the heat absorbing units of subsystem is connected to isolation entrance 11, and the first heat replaces subsystem and the second heat replaces subsystem The outlet of the heat absorbing units of system is connected to the entrance of the heat absorbing units of third heat displacement subsystem, and the first heat replaces subsystem The outlet of the heat absorbing units of system and the second heat displacement subsystem is connected to the heat absorbing units of third heat displacement subsystem Entrance, the outlet of the heat absorbing units of third heat displacement subsystem is connected to isolation low in calories and exports.Isolation outlet low in calories Working medium point four tunnels：It is connected to heat-exchange system throttling element entrance all the way, remaining three tunnels return to first order heat displacement subsystem respectively The displacement unit of system, the second heat displacement subsystem and third heat displacement subsystem（That is flow-rate adjustment module）Entrance.

Such as Fig. 4, heat absorbing units include the first heat exchange plate 2 of the metal material placed vertically, first heat exchange plate 2 packet It includes and the first working medium entrances 21 at top, the first sender property outlet 22 arranged at the bottom is set and are arranged to enter in the first working medium Heat absorption working medium runner 23 between mouth 21 and the first sender property outlet 22.Working medium of absorbing heat runner 23 includes the first working medium entrances 21 of connection Shunting section, the first sender property outlet 22 confluence section and connection shunting section and converge section endotherm section.Shunting section and confluence section In net distribution, the working medium entered by the first working medium entrances is assigned in endotherm section at the first time.The gold of first heat exchange plate 2 Belong to and is provided with downward opening V-arrangement heat dissipation line on shell.

Heating unit includes the second heat exchange plate 3 of the metal material placed vertically, which includes setting Bottom the second working medium entrances 31, be arranged top the second sender property outlet 32 and be arranged in 31 and of the second working medium entrances Heat supply working medium runner 33 between second sender property outlet 32.Heat supply working medium runner 33 includes the shunting of the second working medium entrances 31 of connection Section, the second sender property outlet 32 confluence section and connection shunting section and confluence section for hot arc.Shunting section and confluence section are in netted Distribution, at the first time assigns to the working medium entered by the second working medium entrances in endotherm section.The metal shell of second heat exchange plate 2 On be provided with opening up V-arrangement heat dissipation line.

First heat exchange plate 2 and the second heat exchange plate 3, which are closely spaced, to be stacked in isolated part.First heat exchange plate 2 Can be only to be inverted when in use with mutually isostructural heat exchange plate with the second heat exchange plate 3.The work of first heat exchange plate 2 Matter entrance connects the entrance of heat absorbing units, the outlet of the sender property outlet connection heat absorbing units of the first heat exchange plate 2.Second heat exchanger plates The entrance of the working medium entrances connection heating unit of piece 3, the sender property outlet 32 of the second heat exchange plate 3 connect the outlet of heating unit. The outlet of the entrance connection heat absorbing units of second throttling element 4（That is the sender property outlet 22 of the first heat exchange plate）, the second throttling element 4 Outlet connection heating unit entrance（That is the working medium entrances 31 of the second heat exchange plate）.

Capillary-compensated part may be used in second throttling element 4, and first throttle part uses diameter reducing pipe.Second throttling element 4 is adjusted Section is flowed to tune of the flow realization to the working medium density in heat absorbing units and heating unit of the working medium of heating unit by heat absorbing units Section.The refrigerant flow rate for controlling the second throttling element is consistently less than the refrigerant flow rate of first throttle part.First throttle part and the second throttling Environment temperature dynamic in the condensing zone that refrigerant flow rate in part can heat as needed simultaneously adjusts：With environment temperature It increases and increases, and the refrigerant flow rate of first throttle part is more than the working medium of the second throttling element with the pace of change of temperature change Flow velocity with temperature change speed.Preferably, can increase in heat-exchange system for controlling first throttle part, the second section The controller of part refrigerant flow rate is flowed, and the temperature sensor of detection environment temperature, the detection of temperature sensor are exported to control Device, controller throttle according to the environment temperature of temperature sensor feedback according to aforementioned rule dynamic regulation first throttle part and second The flow velocity of part.Second throttling element 4 adjusts the working medium density that the working medium density in heat absorbing units is more than in heating unit so that has 2 and second heat exchange plate 3 of mutually isostructural first heat exchange plate, the total enthalpy of working medium is changed more than second in the first heat exchange plate 2 The total enthalpy of working medium in hot plate 3.The first heat exchange plate 2 and the second heat exchange plate 3 of metal material closely overlap, Since the total enthalpy of the two is different, them is caused to carry out hot transmission between each other.Gas-liquid mixed state in the second heat exchange plate 3 Working medium absorbs the working medium heat of the gas-liquid mixed state in the first heat exchange plate 2, and the working medium in the second heat exchange plate 3 absorbs heat and steams Hair is gaseous state, and the working medium release heat in the first heat exchange plate 2 is liquefied, and temperature further decreases.

It is right in a short time that the working medium of gas-liquid two-phase state is realized by first by the heat of two-stage parallel connection displacement subsystem The heat exchange of a large amount of working medium, improves heat exchange coefficient of the multistage series-parallel connection isolated area to working medium so that heating system is more Suitable for the quick heating needs in severe extreme low temperature heating environment.The heat absorption list of two heats displacement subsystem in parallel Member and heating unit are alternately closely overlapped in the shell, can increase the area of heat exchange, improve the heat of heat exchange system Measure exchange capacity.Connecting for subsystem is replaced with third heat by second level heat exchange system, improves and is isolated through low temperature Export outflow working medium with through be isolated entrance flow into working medium between temperature difference so that heating system is more applicable for severe Extreme low temperature heats environment.Third heat replaces the total enthalpy of working medium in the first heat exchange plate and the second heat exchange plate in subsystem Difference is more than work in the first heat exchange plate in the first heat displacement subsystem and the second heat displacement subsystem and the second heat exchange plate The degree of the total enthalpy value difference of matter, heat displacement is higher.On the one hand can heat displacement quickly carried out to working medium at the first time； On the other hand, it by adjusting the amount of the working medium in the heating unit for branching to heat exchange systems at different levels, can adjust through high fever The accounting of gaseous working medium, meets different demands of the heating system in different use environments in amount isolation outlet outflow working medium. In addition, thermal insulation board can be arranged inside the shell, the thermal insulation board forms three independent insulated space difference in the enclosure Subsystem is replaced for accommodating three heats.It can be by adjusting the working medium in the heating unit for branching to each heat exchange system Amount, control the working condition of three heats displacement subsystem respectively, while ensureing that three heats displacement subsystems will not be mutual It influences.For two sub- exchange systems of heat in parallel, it might even be possible to which wherein level-one heat exchange system is only used alone in selection Or open two-stage heat exchange system simultaneously and work, to meet different need of the heating system in different use environments It asks.Even if one of heat exchange system breaks down, it is also ensured that another heat replaces subsystem will not be by its shadow It rings and works independently, to improve the stability of entire heating system.

Embodiment two

Such as a kind of heat-exchange system plural parallel stage replacement modules of Fig. 3, including isolated part 1 made of heat-barrier material, and First heat displacement subsystem, the second heat displacement subsystem and third heat are set in isolated part and replace subsystem. First heat replaces subsystem as first order heat exchange system, the second heat exchange system and first order heat exchange system Parallel connection constitutes second level heat exchange system, and third heat exchange system is in series entire mixed with second level heat exchange system Join heat exchange system.Heat displacement subsystem includes heat absorbing units 2, heating unit 3 and displacement unit.Isolated part 1 prevents The heat exchange of its internal working medium and external environment.Isolated part 1 is provided with isolation entrance 11, isolation low in calories exports 12 and High heat isolation outlet 13.The entrance connection isolation entrance of heat absorbing units, the outlet of heat absorbing units connect isolation outlet low in calories, The outlet of the entrance linker substitution unit of heating unit, the outlet connection high heat isolation outlet of heating unit, replaces unit Entrance connects isolation outlet low in calories.Entrance is isolated and is equipped with first throttle part 5.First heat replaces subsystem and the second heat is set The entrance for changing the heat absorbing units of subsystem is connected to isolation entrance 11, and the first heat replaces subsystem and the second heat replaces subsystem The outlet of the heat absorbing units of system is connected to the entrance of the heat absorbing units of third heat displacement subsystem, and the first heat replaces subsystem The outlet of the heat absorbing units of system and the second heat displacement subsystem is connected to the heat absorbing units of third heat displacement subsystem Entrance, the outlet of the heat absorbing units of third heat displacement subsystem is connected to isolation low in calories and exports.Isolation outlet low in calories Working medium point four tunnels：It is connected to heat-exchange system throttling element entrance all the way, remaining three tunnels return to first order heat displacement subsystem respectively The displacement unit of system, the second heat displacement subsystem and third heat displacement subsystem（That is flow-rate adjustment module）Entrance.

Such as Fig. 5, heat absorbing units include the first heat exchange plate 2 of the metal material placed vertically, first heat exchange plate 2 packet It includes and the working medium entrances 21 at top is set, sender property outlet arranged at the bottom 22, are arranged between working medium entrances and sender property outlet Heat absorption working medium runner 26, collector tube 23 and gas phase return duct 24.Working medium of absorbing heat runner 26 is curved channel, extends heat absorption work The length in mass flow road 26, while the runner being bent slows down the flowing velocity of working medium wherein, extends working medium in heat absorption working medium Residence time in runner 26 improves the endothermic effect of heat absorption working medium runner.Collector tube 23 and gas phase return duct 24 are divided into suction The both sides of hot working fluid runner 26.26 entrance of working medium of absorbing heat runner connects working medium entrances 21, collector tube 23 and heat absorption working medium runner 26 It is connected to by the first return flow line 25, gas phase return duct 24 is connected to heat absorption working medium runner 26 by the second return flow line 27.It inhales Hot working fluid runner 26 includes the subflow 261 of several bendings, and each subflow road includes successively：Endotherm section 2611, the first liquid phase separation Section 2613 and the first gas phase segregation section 2614 are hit in the 2612, first mixing of section；One end connection first of first liquid phase separation section Section is hit in mixing, and the other end of the first liquid phase separation section connects the first return flow line 25；One end of first gas phase segregation section connects Section is hit in first mixing, and the other end of the first gas phase segregation section connects the second return flow line 27.Part working medium is inhaled in endotherm section Receipts heat of vaporization is gaseous working medium, enters the first liquid phase separation section, and the first liquid phase separation section includes the first resistance being bent upwards Stopper so that the liquid refrigerant in gas-liquid mixed working medium returns to collector tube since gravity is downwardly into the first return flow line 25 23.Section is hit in the first mixing that remaining gas-liquid mixed working medium enters bending, and it includes multiple bending sections, gas that section is hit in the first mixing Gas working medium particle and liquid working substance particle in liquid mixed working fluid encounter bending section in section is hit in the first mixing and are blocked, and change Become movement locus, being sufficiently mixed for liquid refrigerant particle and gaseous working medium particle can be reinforced, reinforce the heat exchange of working medium.With Enter the first gas phase segregation section afterwards, the first gas phase segregation section includes the second blocking portion being bent upwards so that gas-liquid mixed working medium Interior gaseous working medium returns to gas phase return duct 24 since lighter in weight is upwardly into the second return flow line 27.First return flow line 25 For inclined line flowing channel, the first return flow line 25 and the position of the tie point of collector tube 23 less than the first return flow line 25 and are inhaled The position of the tie point of hot working fluid runner 26.Second return flow line 27 is inclined line flowing channel, the second return flow line 27 and gas Position of the position of the tie point of phase return duct 24 higher than the second return flow line 27 and the tie point of heat absorption working medium runner 26.

The heat that gas-liquid mixes working medium most of working medium in heat absorption working medium runner of state is absorbed transfer, and it is lower to become temperature Liquid refrigerant.Liquid refrigerant is received since the first return flow line 25 of the gravity through tilting down enters in collector tube 23 Collection.Remain as gaseous working medium bending heat absorption working medium runner 26 in flowing, through acclivitous second return flow line 27 into Enter and be again introduced into heat absorption working medium runner 26 at the return working medium entrances 21 of gas phase return duct 24 so that its heat can be shifted by absorbing And it is liquefied.

Heating unit includes the second heat exchange plate 3 of the metal material placed vertically, which includes setting Bottom working medium entrances 31, be arranged top sender property outlet 32 and setting working medium entrances 31 and sender property outlet 32 it Between heat supply working medium runner 36, gas collecting tube 33 and liquid-phase reflux pipe 34.Heat supply working medium runner 36 is curved channel, extends heat supply The length of working medium runner 36, while the runner being bent slows down the flowing velocity of working medium wherein, extends working medium for thermal technology Residence time in mass flow road 36 improves the endothermic effect of heat absorption working medium runner.Liquid-phase reflux pipe 34 and gas collecting tube 33 are divided into The both sides of heat supply working medium runner 36.36 entrance of heat supply working medium runner connects working medium entrances 31, gas collecting tube 33 and heat supply working medium runner 36 are connected to by third return flow line 37, and liquid-phase reflux pipe 34 is connected to heat supply working medium runner 36 by the 4th return flow line 35. Heat supply wage runner 36 includes the subflow 361 of several bendings, and each subflow road includes successively：For hot arc 3611, the second gas phase point It is mixed from section 3614, second and hits section 3613 and second liquid phase segregation section 3612；One end connection of second liquid phase segregation section is mixed It closes and hits section, the other end connection third return flow line 37 of second liquid phase segregation section；One end connection of second gas phase segregation section is mixed It closes and hits section, the other end of gas phase segregation section connects the 4th return flow line 35.Part liquid working medium discharges heat temperature in for hot arc Degree reduces, and enters second liquid phase segregation section, second liquid phase segregation section includes the first blocking portion being bent upwards so that gas-liquid is mixed The liquid refrigerant closed in working medium returns to liquid-phase reflux pipe 34 since gravity is downwardly into third return flow line 37.Remaining gas Section is hit in the second mixing that liquid mixed working fluid enters bending, and it includes multiple bending sections, gas-liquid mixed working medium that section is hit in the second mixing Interior gas working medium particle and liquid working substance particle encounters bending section in section is hit in the second mixing and is blocked, and changes movement rail Mark can reinforce being sufficiently mixed for liquid refrigerant particle and gaseous working medium particle, reinforce the heat exchange of working medium.Subsequently enter Two gas phase segregation sections, the second gas phase segregation section include the second blocking portion being bent upwards so that the gaseous state in gas-liquid mixed working medium Working medium returns to gas collecting tube 34 since lighter in weight is upwardly into the 4th return flow line 35.Third return flow line 37 is inclined straight line The position of runner, third return flow line 37 and the tie point of gas collecting tube 33 is higher than the 4th return flow line 35 and heat supply working medium runner 36 Tie point position.4th return flow line 35 is inclined line flowing channel, the 4th return flow line 35 and liquid-phase reflux pipe 34 Position of the position of tie point less than the 4th return flow line 35 and the tie point of heat supply working medium runner 36.

Working medium becomes gaseous working medium in heat supply working medium runner 36 after most of working medium absorbs heat.Gaseous working medium due to Gravity, which enters through acclivitous third return flow line 37 in gas collecting tube 33, to be collected.The working medium for remaining as liquid is being bent Heat supply working medium runner 36 in flowing, the 4th return flow line 35 through tilting down enters liquid-phase reflux pipe 34 and returns to working medium entrances Heat supply working medium runner 36 is again introduced at 21 so that it can absorb heat again and become gaseous working medium.

First heat exchange plate 2 and the second heat exchange plate 3, which are closely spaced, to be stacked in isolated part 1.First heat exchange plate 2 Working medium entrances connection heat absorbing units entrance, the first heat exchange plate 2 sender property outlet connection heat absorbing units outlet.Second changes The entrance of the working medium entrances connection heating unit of hot plate piece 3, the sender property outlet 32 of the second heat exchange plate 3 connect going out for heating unit Mouthful.The outlet of the entrance connection heat absorbing units of second throttling element 4（That is the sender property outlet 22 of the first heat exchange plate）, the second throttling element 4 outlet connects heating unit entrance（That is the working medium entrances 31 of the second heat exchange plate）.First heat exchange plate 2 and the second heat exchanger plates Piece 3 fits closely, and the working medium in heat absorption working medium runner 26 flows from top to bottom, and the working medium in heat supply working medium runner 36 is from lower to upper It flows, the working medium in two working medium runners forms convection current, promotes mutual heat exchange.

Capillary-compensated part may be used in second throttling element 4, and first throttle part uses diameter reducing pipe.Second throttling element 4 is adjusted Section is flowed to tune of the flow realization to the working medium density in heat absorbing units and heating unit of the working medium of heating unit by heat absorbing units Section.The refrigerant flow rate for controlling the second throttling element is consistently less than the refrigerant flow rate of first throttle part.First throttle part and the second throttling Environment temperature dynamic in the condensing zone that refrigerant flow rate in part can heat as needed simultaneously adjusts：With environment temperature It increases and increases, and the refrigerant flow rate of first throttle part is more than the working medium of the second throttling element with the pace of change of temperature change Flow velocity with temperature change speed.Preferably, can increase in heat-exchange system for controlling first throttle part, the second section The controller of part refrigerant flow rate is flowed, and the temperature sensor of detection environment temperature, the detection of temperature sensor are exported to control Device, controller throttle according to the environment temperature of temperature sensor feedback according to aforementioned rule dynamic regulation first throttle part and second The flow velocity of part.Second throttling element 4 adjusts the working medium density that the working medium density in heat absorbing units is more than in heating unit so that has 2 and second heat exchange plate 3 of mutually isostructural first heat exchange plate, the total enthalpy of working medium is changed more than second in the first heat exchange plate 2 The total enthalpy of working medium in hot plate 3.The first heat exchange plate 2 and the second heat exchange plate 3 of metal material closely overlap, Since the total enthalpy of the two is different, them is caused to carry out hot transmission between each other.Gas-liquid mixed state in the second heat exchange plate 3 Working medium absorbs the working medium heat of the gas-liquid mixed state in the first heat exchange plate 2, and the working medium in the second heat exchange plate 3 absorbs heat and steams Hair is gaseous state, and the working medium release heat in the first heat exchange plate 2 is liquefied, and temperature further decreases.

It is right in a short time that the working medium of gas-liquid two-phase state is realized by first by the heat of two-stage parallel connection displacement subsystem The heat exchange of a large amount of working medium, improves heat exchange coefficient of the multistage series-parallel connection isolated area to working medium so that heating system is more Suitable for the quick heating needs in severe extreme low temperature heating environment.The heat absorption list of two heats displacement subsystem in parallel Member and heating unit are alternately closely overlapped in the shell, can increase the area of heat exchange, improve the heat of heat exchange system Measure exchange capacity.Connecting for subsystem is replaced with third heat by second level heat exchange system, improves and is isolated through low temperature Export outflow working medium with through be isolated entrance flow into working medium between temperature difference so that heating system is more applicable for severe Extreme low temperature heats environment.Third heat replaces the total enthalpy of working medium in the first heat exchange plate and the second heat exchange plate in subsystem Difference is more than work in the first heat exchange plate in the first heat displacement subsystem and the second heat displacement subsystem and the second heat exchange plate The degree of the total enthalpy value difference of matter, heat displacement is higher.On the one hand can heat displacement quickly carried out to working medium at the first time； On the other hand, it by adjusting the amount of the working medium in the heating unit for branching to heat exchange systems at different levels, can adjust through high fever The accounting of gaseous working medium, meets different demands of the heating system in different use environments in amount isolation outlet outflow working medium. In addition, thermal insulation board can be arranged inside the shell, the thermal insulation board forms three independent insulated space difference in the enclosure Subsystem is replaced for accommodating three heats.It can be by adjusting the working medium in the heating unit for branching to each heat exchange system Amount, control the working condition of three heats displacement subsystem respectively, while ensureing that three heats displacement subsystems will not be mutual It influences.For two sub- exchange systems of heat in parallel, it might even be possible to which wherein level-one heat exchange system is only used alone in selection Or open two-stage heat exchange system simultaneously and work, to meet different need of the heating system in different use environments It asks.Even if one of heat exchange system breaks down, it is also ensured that another heat replaces subsystem will not be by its shadow It rings and works independently, to improve the stability of entire heating system.

Connection type of the multistage series-parallel connection replacement module of the present invention in heat-exchange system is as illustrated in figs. 8-11：

Heat-exchange system includes the compressor connected by working medium runner, condenser, evaporator, heat-exchange system throttling element, more Grade series-parallel connection replacement module.The entrance of the outlet connection condenser of compressor, the multistage series-parallel connection replacement module of outlet connection of condenser Isolation entrance, multistage series-parallel connection replacement module isolation low in calories outlet connection heat-exchange system throttling element entrance, heat-exchange system The entrance of the outlet connection evaporator of throttling element, the entrance of the outlet connect compressor of evaporator.Condenser is placed on needs Among the closed environments such as the room of heating, evaporator is placed on except the closed environment.Closed environment shape where condenser At condensing zone, the environment where evaporator forms evaporating area.During working medium flows in working medium runner, evaporating area is absorbed Amount of heat, and be discharged into condensing zone, it is closed heating environment heat supply, improves the temperature in room, reach heating effect.

It is gas-liquid mixed state in the high temperature and pressure working medium of the outlet outflow of the condenser of condensing zone, enters along working medium runner Multistage series-parallel connection replacement module.The environment of a relative insulation is formed therein in the isolated part of multistage series-parallel connection replacement module, subtracts The heat exchange of few working medium and external environment for entering multistage series-parallel connection replacement module by condensing zone.In multistage series-parallel connection replacement module, Substantially there is only the heat exchanges of working medium in heat absorbing units and heating unit.Finally, it is flowed out into through isolation low in calories outlet The Temperature of Working of the entrance of first throttle part is lower than the Temperature of Working of the outlet outflow by condenser.It is isolated the first of inlet Throttling element is equivalent to the heat-exchange system throttling element Forward of evaporator front end in original heat-exchange system, can effectively will be useful Heat is distributed in condensing zone, is improved effective quantity of heat production of system, is avoided heat waste.It reduces and steaming is entered by first throttle part The heat of the working medium of device is sent out, the Temperature of Working into evaporator is lower, adjusts evaporating pressure so that the heat absorption capacity of evaporator is more It is high.

The working medium containing more gaseous working mediums that heat is evaporated is absorbed in heating unit, and outlet stream is isolated through high heat Go out.High heat isolation outlet is connected to the entrance of compressor, suction pressure of compressor is improved, to improve compressor Compression ratio.

Such as Fig. 9, evaporator can also include common evaporator and heat collector panel（The different poly- state absorber plate of passive type heat absorption）.Pressure The entrance of the outlet connection condenser of contracting machine, the isolation entrance of the multistage series-parallel connection replacement module of outlet connection of condenser, multistage are mixed The isolation low in calories outlet of connection replacement module is separately connected the entrance of the entrance and the 4th throttling element of first throttle part, first throttle The outlet of part connects the entrance of common evaporator, the entrance of the outlet connection heat collector panel of the 4th throttling element, and common evaporator goes out The entrance of mouth connect compressor, the outlet connect compressor entrance of heat collector panel.Condenser is placed on to the room etc. for needing to heat Among closed environment, evaporator is placed on except the closed environment.Closed environment where condenser forms condensing zone, evaporation Environment where device forms evaporating area.

Such as Figure 10, also outlet can be isolated in the high temperature of multistage series-parallel connection replacement module and be connected to entering for heat-exchange system throttling element Mouthful.The working medium containing more gaseous working mediums that heat is evaporated is absorbed in heating unit, and outlet outflow is isolated through high heat, and Enter heat collector panel by heat-exchange system throttling element, improve the accounting for entering the gaseous working medium in heat collector panel working medium so that is passive to inhale Working medium distribution in the heat collector panel of heat type is more uniform, is equivalent to and has carried out a primary evaporator for heat collector panel, improves system Heating capacity.

Such as Figure 11, high heat isolation outlet is respectively connected to the entrance of the entrance and compressor of heat-exchange system throttling element. On the one hand, suction pressure of compressor is improved, to improve the compression ratio of compressor；Another reverse side passes through the 4th throttling element Into heat collector panel, the accounting for entering the gaseous working medium in heat collector panel working medium is improved so that the work in the heat collector panel of passive heat absorbing type Matter distribution is more uniform, is equivalent to and has carried out a primary evaporator for heat collector panel, improves the heating capacity of system.In heating unit Outlet outflow is isolated through high heat in the working medium containing more gaseous working mediums that middle absorption heat is evaporated.

The addition of multistage series-parallel connection replacement module changes traditional two big region of Kano formula cycle applications system, four big components Tectonic framework, the setting isolation displacement zone between the condensing zone and the evaporating area, and will be evaporated in original heat-exchange system The heat-exchange system throttling element of device front end moves forward.The Forward of throttling element can effectively distribute available heat in condensing zone, improve Effective quantity of heat production of system, avoids heat waste.Isolation displacement zone reduces during the condensed area of working medium enters evaporating area With external heat exchange, while working medium is divided into two parts inside multistage series-parallel connection replacement module, extracted in traditional Kano formula The low-quality waste heat of condensation that cycle applications system can not recycle so that leave multistage series-parallel connection replacement die through low temperature isolation outlet The Temperature of Working that block enters evaporator is lower than the Temperature of Working for being directly entered evaporator by condensator outlet.It ensure that entire system Freeze in cold/heating system, heat the complete of scene, reduce working medium entered by condensing zone condenser heat during evaporating area and The loss of evaporation heat.By the reasonably optimizing to multistage series-parallel connection replacement module, it is substantially equal to for the efficiency of Carnot cycle machine Ideal efficiency has opened up out a direction.To breach the technical bottleneck of cooling/heating system, refrigerating/heating is substantially increased The Energy Efficiency Ratio of system.

Although the embodiments of the invention are described in conjunction with the attached drawings, but those of ordinary skill in the art can be in appended power Profit makes various deformations or amendments in the range of requiring.

Claims (6)

1. a kind of heat-exchange system multistage series-parallel connection replacement module, it is characterised in that：Including isolated part and it is arranged in the isolation The series-parallel connection heat exchange system that at least three heats displacement subsystem in component is constituted；The isolated part includes being partitioned into Mouth, isolation low in calories outlet and high heat isolation outlet；The heat exchange system connects the isolation entrance, described low Heat isolation outlet and high heat isolation outlet；Next stage heat replaces subsystem and replaces subsystem simultaneously with upper level heat Connection or series connection；At least level-one heat displacement subsystem is in parallel with upper level heat displacement subsystem, at least level-one heat Displacement subsystem is connected with upper level heat displacement subsystem；The heat displacement subsystem includes heating unit, heat absorbing units With displacement unit；The outlet of the displacement unit connects the entrance of the heating unit；Heat exchange system described in the first order The entrances of heat absorbing units connects the isolation entrance, the outlet connection of the heat absorbing units of heat displacement subsystem described in afterbody The isolation outlet low in calories, the outlet of the heating unit of the heat displacement subsystems at different levels connect the high heat and isolate Mouthful, the entrance connection isolation outlet low in calories of the displacement unit of the heat displacement subsystems at different levels；Upper level heat is set Change the heat absorbing units of subsystem outlet be connected to series connection with it next stage heat displacement subsystem heat absorbing units entrance, Alternatively, the outlet of the heat absorbing units of upper level heat displacement subsystem is connected to next stage heat displacement subsystem connected in parallel Heat absorbing units outlet；The entrance of the heat absorbing units of next stage heat displacement subsystem is connected to the upper level heat of series connection with it The outlet of the heat absorbing units of amount displacement subsystem, alternatively, the entrance of the heat absorbing units of next stage heat displacement subsystem is connected to The entrance of the heat absorbing units of upper level heat displacement subsystem connected in parallel；Throttling element is arranged in the isolation entrance；The suction Hot cell includes the first heat exchange plate, and first heat exchange plate includes the first working medium entrances, the first sender property outlet, heat absorption working medium Runner and collector tube, the heat absorption working medium runner are connected to first working medium entrances, the collector tube and the heat absorption work Mass flow road is connected to；The heating unit includes the second heat exchange plate, and second heat exchange plate includes the second working medium entrances, second Sender property outlet, heat supply working medium runner and gas collecting tube, the heat supply working medium runner is connected to second working medium entrances, described Gas collecting tube is connected to the heat supply working medium runner；The displacement unit includes flow-rate adjustment part；The collector tube and the heat absorption Working medium runner is connected to by the first return flow line, and first return flow line and the position of the tie point of the collector tube are less than institute State the position of the first return flow line and the tie point of the heat absorption working medium runner.

2. a kind of heat-exchange system multistage series-parallel connection replacement module according to claim 1, it is characterised in that：The heat absorbing units Gas phase return duct is set, is connected to by the second return flow line between the gas phase return duct and the heat absorption working medium runner, it is described Second return flow line and the position of the tie point of the heat absorption working medium runner are returned less than second return flow line and the gas phase The position of the tie point of flow tube.

3. a kind of heat-exchange system multistage series-parallel connection replacement module according to claim 1, it is characterised in that：The gas collecting tube and The heat supply working medium runner is connected to by third return flow line, the position of the third return flow line and the tie point of the gas collecting tube Set the position higher than the third return flow line and the tie point of the heat supply working medium runner.

4. a kind of heat-exchange system multistage series-parallel connection replacement module according to claim 3, it is characterised in that:The heating unit Liquid-phase reflux pipe is set, the liquid-phase reflux pipe is connected to the heat supply working medium runner by the 4th return flow line, and the described 4th Return flow line and the position of the tie point of the liquid-phase reflux pipe are less than the 4th return flow line and the heat supply working medium runner Tie point position.

5. a kind of heat-exchange system multistage series-parallel connection replacement module according to any one of claim 1-4, it is characterised in that：Institute It states heat absorption working medium runner and the heat supply working medium runner fits closely, and the working medium flow direction in the heat absorption working medium runner and institute The working medium flow direction stated in heat supply working medium runner is opposite.

6. a kind of heat-exchange system multistage series-parallel connection replacement module according to claim 5, it is characterised in that：The throttling element is Reducing pipe, the flow-rate adjustment part are capillary.